Class 12 Chemistry Chapter 01: Solutions 6: Molar Mass Determination Hard Level 18

किसी पदार्थ के (2.2,g) से (1.0,L) विलयन बनाया गया। (300,K) पर परासरण दाब (0.451,atm) है। \(R=0.082,L,atm,K^{-1},mol^{-1}\) होने पर मोलर द्रव्यमान लगभग क्या होगा?

Q: किसी पदार्थ के (2.2,g) से (1.0,L) विलयन बनाया गया। (300,K) पर परासरण दाब (0.451,atm) है। (R=0.082,L,atm,K power -1 ,mol power -1 ) होने पर मोलर द्रव्यमान लगभग क्या होगा? / A (1.0,L) solution is prepared using (2.2,g) of a substance. Its osmotic pressure at (300,K) is (0.451,atm). If (R=0.082,L,atm,K power -1 ,mol power -1 ), what is the approximate molar mass?

Correct Answer: C. (120,g,mol power -1 ). Explanation: चरण 1: परासरण दाब विधि में (M= wRT by V ) है। चरण 2: (M= 2.2 0.082 300 by 0.451 1.0 120,g,mol power -1 )। चरण 3: लगभग मानों में विकल्प के निकटतम उत्तर को चुनें। / Step 1: In osmotic pressure method, (M= wRT by V ). Step 2: (M= 2.2 0.082 300 by 0.451 1.0 120,g,mol power -1 ). Step 3: In approximate values, choose the nearest option.

Q: Which concept should I revise for this Chemistry MCQ?

In osmotic pressure method, (M= wRT by V ).

A (1.0,L) solution is prepared using (2.2,g) of a substance. Its osmotic pressure at (300,K) is (0.451,atm). If \(R=0.082,L,atm,K^{-1},mol^{-1}\), what is the approximate molar mass?

Explanation opens after your attempt

Correct Answer

C. \(120,g,mol^{-1}\)

Step 1

Concept

In osmotic pressure method, \(M=\frac{wRT}{\pi V}\).

Step 2

Why this answer is correct

\(M=\frac{2.2\times0.082\times300}{0.451\times1.0}\approx120,g,mol^{-1}\).

Step 3

Exam Tip

In approximate values, choose the nearest option. चरण 1: परासरण दाब विधि में \(M=\frac{wRT}{\pi V}\) है। चरण 2: \(M=\frac{2.2\times0.082\times300}{0.451\times1.0}\approx120,g,mol^{-1}\)। चरण 3: लगभग मानों में विकल्प के निकटतम उत्तर को चुनें।

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Chemistry Answer, Explanation and Revision Hints

किसी पदार्थ के (2.2,g) से (1.0,L) विलयन बनाया गया। (300,K) पर परासरण दाब (0.451,atm) है। \(R=0.082,L,atm,K^{-1},mol^{-1}\) होने पर मोलर द्रव्यमान लगभग क्या होगा? / A (1.0,L) solution is prepared using (2.2,g) of a substance. Its osmotic pressure at (300,K) is (0.451,atm). If \(R=0.082,L,atm,K^{-1},mol^{-1}\), what is the approximate molar mass?

Correct Answer: C. \(120,g,mol^{-1}\). Explanation: चरण 1: परासरण दाब विधि में \(M=\frac{wRT}{\pi V}\) है। चरण 2: \(M=\frac{2.2\times0.082\times300}{0.451\times1.0}\approx120,g,mol^{-1}\)। चरण 3: लगभग मानों में विकल्प के निकटतम उत्तर को चुनें। / Step 1: In osmotic pressure method, \(M=\frac{wRT}{\pi V}\). Step 2: \(M=\frac{2.2\times0.082\times300}{0.451\times1.0}\approx120,g,mol^{-1}\). Step 3: In approximate values, choose the nearest option.

Which concept should I revise for this Chemistry MCQ?

In osmotic pressure method, \(M=\frac{wRT}{\pi V}\).

What exam hint can help solve this Chemistry question?

Concept

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